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Eduard Kejnovsky
Viktor Tokan
Matej Lexa

Showing results (1-10 of 67) with videos related to

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Chromosome Research : an International Journal on the Molecular, Supramolecular and Evolutionary Aspects of Chromosome Biology|September 26, 2015
Transposable elements and G-quadruplexesEduard Kejnovsky, Viktor Tokan, Matej Lexa
BMC Genomics|March 8, 2018
Quadruplex DNA in long terminal repeats in maize LTR retrotransposons inhibits the expression of a reporter gene in yeastViktor Tokan, Janka Puterova, Matej Lexa, et al.
Mobile Genetic Elements|March 12, 2014
Quadruplex-forming DNA sequences spread by retrotransposons may serve as genome regulatorsEduard Kejnovsky, Matej Lexa
Bioinformatics (Oxford, England)|July 5, 2022
HiC-TE: a computational pipeline for Hi-C data analysis to study the role of repeat family interactions in the genome 3D organizationMatej Lexa, Monika Cechova, Son Hoang Nguyen, et al.
Frontiers in Plant Science|June 9, 2020
What Can Long Terminal Repeats Tell Us About the Age of LTR Retrotransposons, Gene Conversion and Ectopic Recombination?Pavel Jedlicka, Matej Lexa, Eduard Kejnovsky
Genome Biology and Evolution|April 2, 2013
Contrasting patterns of transposable element and satellite distribution on sex chromosomes (XY1Y2) in the dioecious plant Rumex acetosaPavlina Steflova, Viktor Tokan, Ivan Vogel, et al.
Mobile DNA|January 11, 2020
Correction to: Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico studyPavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Mobile DNA|December 25, 2019
Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico studyPavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Bioinformatics (Oxford, England)|July 15, 2020
TE-greedy-nester: structure-based detection of LTR retrotransposons and their nestingMatej Lexa, Pavel Jedlicka, Ivan Vanat, et al.
Biodata Mining|December 19, 2024
Detection and classification of long terminal repeat sequences in plant LTR-retrotransposons and their analysis using explainable machine learningJakub Horvath, Pavel Jedlicka, Marie Kratka, et al.
Pageof 7

Showing results (1-10 of 67) with videos related to

Sort By:
Pageof 7
Chromosome Research : an International Journal on the Molecular, Supramolecular and Evolutionary Aspects of Chromosome Biology|September 26, 2015
Transposable elements and G-quadruplexesEduard Kejnovsky, Viktor Tokan, Matej Lexa
BMC Genomics|March 8, 2018
Quadruplex DNA in long terminal repeats in maize LTR retrotransposons inhibits the expression of a reporter gene in yeastViktor Tokan, Janka Puterova, Matej Lexa, et al.
Mobile Genetic Elements|March 12, 2014
Quadruplex-forming DNA sequences spread by retrotransposons may serve as genome regulatorsEduard Kejnovsky, Matej Lexa
Bioinformatics (Oxford, England)|July 5, 2022
HiC-TE: a computational pipeline for Hi-C data analysis to study the role of repeat family interactions in the genome 3D organizationMatej Lexa, Monika Cechova, Son Hoang Nguyen, et al.
Frontiers in Plant Science|June 9, 2020
What Can Long Terminal Repeats Tell Us About the Age of LTR Retrotransposons, Gene Conversion and Ectopic Recombination?Pavel Jedlicka, Matej Lexa, Eduard Kejnovsky
Genome Biology and Evolution|April 2, 2013
Contrasting patterns of transposable element and satellite distribution on sex chromosomes (XY1Y2) in the dioecious plant Rumex acetosaPavlina Steflova, Viktor Tokan, Ivan Vogel, et al.
Mobile DNA|January 11, 2020
Correction to: Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico studyPavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Mobile DNA|December 25, 2019
Nested plant LTR retrotransposons target specific regions of other elements, while all LTR retrotransposons often target palindromes and nucleosome-occupied regions: in silico studyPavel Jedlicka, Matej Lexa, Ivan Vanat, et al.
Bioinformatics (Oxford, England)|July 15, 2020
TE-greedy-nester: structure-based detection of LTR retrotransposons and their nestingMatej Lexa, Pavel Jedlicka, Ivan Vanat, et al.
Biodata Mining|December 19, 2024
Detection and classification of long terminal repeat sequences in plant LTR-retrotransposons and their analysis using explainable machine learningJakub Horvath, Pavel Jedlicka, Marie Kratka, et al.
Pageof 7